TY - JOUR
T1 - Optimization Based Algorithms for Uncertainty Propagation Through Functions With Multidimensional Output Within Evidence Theory
PB - ASME
AU - Gogu, Christian
AU - Qiu, Youchun
AU - Segonds, Stéphane
AU - Bes, Christian
Y1 - 2012/09/28
N1 - 10.1115/1.4007393
JO - Journal of Mechanical Design
SP - 100914
EP - 100914-8
VL - 134
IS - 10
N2 - Evidence theory is one of the approaches designed specifically for dealing with epistemic uncertainty. This type of uncertainty modeling is often useful at preliminary design stages where the uncertainty related to lack of knowledge is the highest. While multiple approaches for propagating epistemic uncertainty through one-dimensional functions have been proposed, propagation through functions having a multidimensional output that need to be considered at once received less attention. Such propagation is particularly important when the multiple function outputs are not independent, which frequently occurs in real world problems. The present paper proposes an approach for calculating belief and plausibility measures by uncertainty propagation through functions with multidimensional, nonindependent output by formulating the problem as one-dimensional optimization problems in spite of the multidimensionality of the output. A general formulation is first presented followed by two special cases where the multidimensional function is convex and where it is linear over each focal element. An analytical example first illustrates the importance of considering all the function outputs at once when these are not independent. Then, an application example to preliminary design of a propeller aircraft then illustrates the proposed algorithm for a convex function. An approximate solution found to be almost identical to the exact solution is also obtained for this problem by linearizing the previous convex function over each focal element.
SN - 1050-0472
M3 - doi: 10.1115/1.4007393
UR - http://dx.doi.org/10.1115/1.4007393
ER -